Innovative Subsurface Approaches for the Success of Carbon Capture and Storage
Monday, 5 May
602
Technical Session
Join us for an in-depth exploration of cutting-edge techniques in offshore oil and gas, focusing on subsurface carbon capture and storage (CCS). This session will delve into the critical value of pore space, advanced modeling and simulation of mechanisms impacting CCS, including hydrate formation and geomechanical risk analysis. We will also discuss innovative pathways to cost reduction in these technologies. Designed to engage professionals across all subsurface disciplines—geology, geophysics, petrophysics, geomechanics, and reservoir engineering—this session promises to provide valuable insights and foster interdisciplinary collaboration to drive the future of offshore CCS projects.
Session Chairpersons
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1030-1048 35563The Value Of Offshore Pore Space For Carbon Capture And Storage
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1050-1108 35813Optical Sediment Trap Reveals Mechanisms Influencing Deep-Ocean Carbon Sequestration
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1110-1128 35714Reservoir-scale Numerical Simulation Of CO2 Hydrate Formation In Subsea Sand Layers Under Saline Conditions
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1150-1208 35945Subsurface Co2 And Hydrogen Storage Using Depleted Oil And Gas Reservoirs: A Geomechanical Risk Analysis Approach
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1210-1228 35514A Numerical Comparative Analysis Of Gas And Foam Injection For Carbon Utilization And Storage In A Depleted Oil Formation
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Alternate 35529Optimization Of The Development Plan For CO2 Displacement Considering The Synergistic Effects Of Oil Production And CO2 Sequestration In Low-permeability Oil Reservoirs
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Alternate 35526Driving Cost Reduction In CCUS Projects: Innovating Qualification Technologies To Replace Expensive Cra With Cost-efficient Glass Fiber Polymer Composites
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Alternate 35719Carbon Abatement Concept Assessment Via Design-to-value Approach To Maximize Value Preservation Of Greenfield Project